废纸造纸废水处理技术的研究进展

。3CODCOD。。、、[1]。63%。BOD、COD、SS。[2]。1、、。、、。、。CODSS、、1[3]。、。89、、、、、、。COD100010。、、、AOX、、1[1-46-7]Tab.1RegeneratedpapermakingwastewaterqualityCOD/(mg·L-1)BOD5/(mg·L-1)ρ(SS)/(mg·L-1)/2500～2400500～800500～750100～2001600～2200450～900400～900400～6001122211.2000922.201206。SSBOD5、CODAOX、。。X793A1000-3770(2016)01-0020-0062015-03-3120130072120033PCRRY11017“”2011ZX07303-002-02。1988－yangdianhai@tongji.edu.cn42120161TECHNOLOGYOFWATERTREATMENTVol.42No.1Jan.,2016DOI:10.16796/j.cnki.1000-3770.2016.01.00420、[4]。、“”。、、COD、BOD、SS41。“”[5]。。17～40m3/t30～60m3/t。2。。。2.1SS、CODCODCOD。SS、、。2.1.1Thompson[8]80%SS。Rajvaidya[9]70%～80%SS。、、、PACPAM、。[10]COD44.14%94.18%。[11]、polyDAD-MAC[12]、[13]CODSS。2.1.2。。。SS、COD[14]。COD、SSCOD、。。BOD/COD0.4～0.7。2.2、。2.2.1AnaerobicbaffledreactorABR、InternalcirculatinganaerobicreactorIC、Up-flowanaerobicsludgebedUASB、ExpandedgranularsludgebedEGSB。[15]ICCOD80%0.38m3/kg8000kWh/d。Jackson-Moss50%COD。ChenHoran[17]UASB6hCOD66%。。Thompson[8]COD80%COD800mg/L。2.2.2、、。Chandra[18]、BOD、COD、、。Junna[19]90%BOD、70%COD、60%～95%40%～60%AOX。[20]21SS99.7%COD98.4%。[21]。。Welander[22]COD30%～40%COD60%～70%。JunnaRuonala[19]BOD750%～70%10~50%。LescotJappinen[23]SS、BOD7、COD、AOX87%、96%、65%、53%、22%。StuthridgeMcfarlane[24]AOX70%。、。SBR、、。ReidSimon[25]SBR90%COD100%。Magnus[26]HCR93%COD65%BOD。Rovel[27]BOD、COD、SSAOX76%、62%、81%48%。Asselin[28]SCBR。。BerubeHall[29]93%TOC。2.2.3。。Shaw[30]BOD、COD87%～95%、70%～977%80%～94%。IC-A/OCOD、SS99%95%[31]。-CASSCASSSS、COD94.3%90.8%[32]。2.3、、。、。2.3.1。AliceAntony[33]GACGAC。、[34]。2.3.2Fenton。MarcoSLucas[35]FentonCOD90%。Korhonen[36]COD65%。SchmidtLange[37]87%～97%COD97%BOD。SevimliSarikaya[38]15min97%。COD、TOC[39-40]。。Fontanier[41]36~76%COD。Torrades[42]TOC、COD、AOX。。KindsigoM[43]42122PtCOD、TOC。2.3.3。Falth[44]COD、AOX。DePinho[45]TOC、SS54%、88%100%TOC。[46]SS90%COD85%。3、、、。BOD、CODAOX。、CODAOX、SSAOX90%。、。。、、。。-SS95%SS50mg/L[48]。-BOD5、CODSS86.16%、88.77%、99.34%[48]。。412CODSS3BOD、CODAOX4、、AOX。、5。[1]PokhrelD,ViraraghavanT.Treatmentofpulpandpapermillwastewater-areview[J].ScienceoftheTotalEnvironment,2004,333:37-58.[2]DarjaBZarkovicaZaklinaN.Simpleandcost-effectivemeasuresfortheimprovementofpapermilleffluenttreatment-acasestudy[J].JournalofCleanerProduction,2011,19:764-774.[3],,,.“”[J].,2009,25(10):56-58,62.[4]TorstenMeyer,ElizabethAEdwards.Anaerobicdigestionofpulpandpapermillwastewaterandsludge[J].WaterResearch,2014,65:321-349.[5]YangJianga,LeonieMaranga,JelmerTamis,etal.Wastetoresource:convertingpapermillwastewatertobioplastic[J].WaterResearch,2012,46:5517-5530.[6]AliMuna,SreekrishnanTR.Aquatictoxicityfrompulpandpapermilleffluents:areview[J].AdvancesinEnvironmentalResearch,2001,5:175-196.[7],,,.Fenton[J].,2014,6(8):2429-2434.[8]ThompsonG,SwainJ,KayM,etal.Thetreatmentofpulpandpapermilleffluent:areview[J].BioresourceTechnology,2001,77(3):275-286.23[9]RajvaidyaN,MarkandeyDK.Advancesinenvironmentalscienceandtechnologytreatmentofpulpandpaperindustrialeffluent[M].AnsariRoad,NewDelhi,India:APHPublishing,1998.[10],.[J].,2007,33(5):52-54.[11],.[J].:,2004,25(12):1195-1197.[12]VimalCSIndraDMIndraMM.Treatmentofpulpandpapermillwastewaterswithpolyaluminiumchlorideandbagasseflyash[J].ColloidsandSurfacesA:PhysicochemEngAspects.,2005,260:17-28.[13]WangJianping,ChenYongzhen.Optimizationofthecoagula-tion-flocculationprocessforpulpmillwastewatertreatmentusingacombinationofuniformdesignandresponsesurfacemethodology[J].WaterResearch,2011,45:5633-5640.[14].[J].,2005,24(4):39-41.[15].[J].,2010,30(11):89-92.[16]Jackson-MossCA,MareeJP,WottonSC.Treatmentofbleachplanteffluentwiththebiologicalgranularactivatedcarbonprocess[J].WaterScience&Technology,1992,26(1-2):27-34.[17]ChenW,HoranNJ.Thetreatmentofahighstrengthpulpandpapermilleffluentforwastewaterre-use(II)biologicalsulphateremovalfromeffluentwithalowCOD/sulphateratio[J].EnvironmentTechnology,1998,19(1):63-71.[18]ChandraR.Microbialdecolourisationofpulpmilleffluentinpresenceofnitrogenandphosphorousbyactivatedsludgeprocess[J].EnvironmentalBiology,2001,22(1):3-7.[19]JunnaJ,RuonalaS.TrendsandguidelinesinwaterpollutioncontrolintheFinnishpulpandpaperindustry[J].TappiJournal,1991,74(7):5-11.[20].[J].,2010,33(7):168-172.[21]KennedyKJ,GrahamB,DrosteRL,etal.MicrotoxandceriodaphniadubiatoxicityofBKMEwithpowderedactivatedcarbontreatment[J].WaterSA,2000,26(2):12-16.[22]WelanderT,LofqvistASelmerA.Upgradingaeratedlagoonsatpulpandpapermills[J].WaterScience&Technology,1997,35(2-3):17-22.[23]LescotJCJappinenH.Effluenttreatmentinpulpandpapermills:presenttechnologyanddevelopmenttrends[J].AppitaJournal,1994,47(4):30-33.[24]StuthridgeTR,McfarlanePN.Adsorbableorganichalideremovalmechanismsinapulpandpapermillaeratedlagoontreatmentsys-tem[J].WaterScience&Technology,1994,29(5-6):195-208.[25]ReidTKSimonA.Feasibilitystudyofsequencingbatchreactortechnologytreatinghighstrengthfoulcondensateformethanolreduction[C].TappiInternationalEnvironmentalConferenceandExhibit,Denver,CO:2000.[26]MagnusE,CarlbergGE,NorskeHH.TMPwastewatertreatmentincludingabiologicalhigh-efficiencycompactreactor[J].NordicPulpandPaperResearchJournal,2000,15(1):29-36.[27]RovelJM,Trudel